Neurosurgery and spinal adaptations in spaceflight: A literature review

Spaceflight places astronauts in multiple environments capable of inducing pathological changes. Alterations in the spine have a significant impact on astronauts’ health during and after spaceflight. Low back pain is an established and common intra-flight complaint. Intervertebral disc herniation oc...

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Veröffentlicht in:Clinical neurology and neurosurgery 2021-08, Vol.207, p.106755-106755, Article 106755
Hauptverfasser: Lazzari, Zachary T., Aria, Kevin M., Menger, Richard
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Sprache:eng
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Zusammenfassung:Spaceflight places astronauts in multiple environments capable of inducing pathological changes. Alterations in the spine have a significant impact on astronauts’ health during and after spaceflight. Low back pain is an established and common intra-flight complaint. Intervertebral disc herniation occurs at higher rates in this population and poses significant morbidity. Morphological changes within intervertebral discs, vertebral bodies, and spinal postural muscles affect overall spine function and astronaut performance. There remains a paucity of research related to spaceflight-induced pathologies, and currently available reviews concern the central nervous system broadly while lacking emphasis on spinal function. Our aim was to review and summarize available data regarding changes in spinal health with exposure to spaceflight, especially focusing on effects of microgravity. The authors also present promising diagnostic and treatment approaches wherein the neurosurgeon could positively impact astronauts’ health and post-flight outcomes. Articles included in this review were identified via search engine using MEDLINE, PubMed, Cochrane Review, Google Scholar, and references within other relevant articles. Search criteria included "spine and spaceflight”, “vertebral column and spaceflight”, “vertebral disc and spaceflight”, and “muscle atrophy and spaceflight”, with results limited to articles written in English from 1961 to 2020. References of selected articles were included as appropriate. Fifty-six articles were included in this review. Compositional changes at the intervertebral discs, vertebral bone, and paraspinal muscles contribute to undesirable effects on astronaut spinal function in space and contribute to post-flight pathologies. Risk of intervertebral disc herniation increases, especially during post-flight recovery. Vertebral bone degeneration in microgravity may increase risk for herniation and fracture. Paraspinal muscle atrophy contributes to low back pain, poorer spine health, and reduced stability. Anatomical changes in microgravity contribute to the development of spinal pathologies. Microgravity impacts sensory neurovestibular function, neuromuscular output, genetic expression, among other systems. Future developments in imaging and therapeutic interventions may better analyze these changes and offer targeted therapeutic interventions to decrease the burden of pain and other diseases of the spine in this population. •Microgravity induces
ISSN:0303-8467
1872-6968
DOI:10.1016/j.clineuro.2021.106755